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Several mechanisms may be associated with Candida albicans resistance to azoles. Ibuprofen was described as being able to revert resistance related to efflux activity in Candida . The aim of this study was to uncover the molecular base of antifungal resistance in C. albicans clinical strains that could be reverted by ibuprofen. Sixty-two clinical isolates and five control strains of C. albicans were studied: the azole susceptibility phenotype was determined according to the Clinical Laboratory for Standards Institute, M27-A2 protocol and minimal inhibitory concentration values were recalculated with ibuprofen (100 μg mL−1); synergistic studies between fluconazole and FK506, a Cdr1p inhibitor, were performed using an agar disk diffusion assay and were compared with ibuprofen results. Gene expression was quantified by real-time PCR, with and without ibuprofen, regarding CDR1 , CDR2 , MDR1 , encoding for efflux pumps, and ERG11 , encoding for azole target protein. A correlation between susceptibility phenotype and resistance gene expression profiles was determined. Ibuprofen and FK506 showed a clear synergistic effect when combined with fluconazole. Resistant isolates reverting to susceptible after incubation with ibuprofen showed CDR1 and CDR2 overexpression especially of the latter. Conversely, strains that did not revert displayed a remarkable increase in ERG11 expression along with CDR genes. Ibuprofen did not alter resistance gene expression significantly ( P >0.05), probably acting as a Cdrp blocker.  相似文献   

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Heteroresistance in Cryptococcus neoformans is an intrinsic adaptive resistance to azoles and the heteroresistant phenotype is associated with disomic chromosomes. Two chromosome 1 (Chr1) genes, ERG11, the fluconazole target, and AFR1, a drug transporter, were reported as major factors in the emergence of Chr1 disomy. In the present study, we show Chr4 to be the second most frequently formed disomy at high concentrations of fluconazole (FLC) and characterize the importance of resident genes contributing to disomy formation. We deleted nine Chr4 genes presumed to have functions in ergosterol biosynthesis, membrane composition/integrity or drug transportation that could influence Chr4 disomy under FLC stress. Of these nine, disruption of three genes homologous to Sey1 (a GTPase), Glo3 and Gcs2 (the ADP-ribosylation factor GTPase activating proteins) significantly reduced the frequency of Chr4 disomy in heteroresistant clones. Furthermore, FLC resistant clones derived from sey1Δglo3Δ did not show disomy of either Chr4 or Chr1 but instead had increased the copy number of the genes proximal to ERG11 locus on Chr1. Since the three genes are critical for the integrity of endoplasmic reticulum (ER) in Saccharomyces cerevisiae, we used Sec61ß-GFP fusion as a marker to study the ER in the mutants. The cytoplasmic ER was found to be elongated in sey1Δ but without any discernable alteration in gcs2Δ and glo3Δ under fluorescence microscopy. The aberrant ER morphology of all three mutant strains, however, was discernable by transmission electron microscopy. A 3D reconstruction using Focused Ion Beam Scanning Electron Microscopy (FIB-SEM) revealed considerably reduced reticulation in the ER of glo3Δ and gcs2Δ strains. In sey1Δ, ER reticulation was barely detectable and cisternae were expanded extensively compared to the wild type strains. These data suggest that the genes required for maintenance of ER integrity are important for the formation of disomic chromosomes in C. neoformans under azole stress.  相似文献   

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临床上热带假丝酵母(又称热带念珠菌)的分离率越来越高,唑类抗真菌药物因较低的细胞毒性且大多可口服给药,是治疗热带念珠菌感染的常用药物。我国耐唑类药物热带念珠菌的分离率较高,因此有必要了解其具体机制,为寻求新的药物作用靶点提供依据。目前认为,与热带念珠菌唑类耐药有关的主要机制有靶基因ERG11过度表达和突变、编码转录因子的upc2基因过度表达和突变、外排泵基因过度表达及其他相关基因过度表达等。本文就目前热带念珠菌唑类耐药机制的基因水平研究进展进行综述。  相似文献   

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Adaptation to inhibitory concentrations of the antifungal agent fluconazole was monitored in replicated experimental populations founded from a single, drug-sensitive cell of the yeast Candida albicans and reared over 330 generations. The concentration of fluconazole was maintained at twice the MIC in six populations; no fluconazole was added to another six populations. All six replicate populations grown with fluconazole adapted to the presence of drug as indicated by an increase in MIC; none of the six populations grown without fluconazole showed any change in MIC. In all populations evolved with drug, increased fluconazole resistance was accompanied by increased resistance to ketoconazole and itraconazole; these populations contained ergosterol in their cell membranes and were amphotericin sensitive. The increase in fluconazole MIC in the six populations evolved with drug followed different trajectories, and these populations achieved different levels of resistance, with distinct overexpression patterns of four genes involved in azole resistance: the ATP-binding cassette transporter genes, CDR1 and CDR2; the gene encoding the target enzyme of the azoles in the ergosterol biosynthetic pathway, ERG11; and the major facilitator gene, MDR1. Selective sweeps in these populations were accompanied by additional genomic changes with no known relationship to drug resistance: loss of heterozygosity in two of the five marker genes assayed and alterations in DNA fingerprints and electrophoretic karyotypes. These results show that chance, in the form of mutations that confer an adaptive advantage, is a determinant in the evolution of azole drug resistance in experimental populations of C. albicans.  相似文献   

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唑类抗真菌药物广泛用于临床和农业。唑类药物通过与羊毛甾醇14α-去甲基化酶(Erg11p/Cyp51)结合,抑制麦角甾醇合成,同时导致有毒甾醇积累。真菌可快速在转录水平上对唑类药物胁迫作出响应而导致耐药性,尤其是唑类药物外排泵基因和麦角甾醇合成相关基因表达的上调。农业和临床上绝大多数唑类药物耐药菌株的形成都是由麦角甾醇合成基因和唑类药物外排泵表达的变化或是突变所致。一些转录因子(如Pdr1p、Pdr3p、Upc2p、Yap1p、Tac1p、Mrr1p、CCG-8)和信号通路(如cAMP途径、PKC-MAPK途径、HOG MAPK途径、钙调磷酸酶途径)均参与对药物外排泵基因和麦角甾醇合成基因等的调控,影响唑类药物耐药性。针对于这些调控因子设计的抑制剂将有助于提高唑类药物的治疗效果。本文概述了唑类药物的抑菌机制、真菌对唑类药物耐药性形成的原因、真菌对唑类药物适应性响应机理,并对未来此领域的热点和方向进行了展望。  相似文献   

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Molecular basis of resistance to azole antifungals   总被引:12,自引:0,他引:12  
The increased incidence of invasive mycoses and the emerging problem of antifungal drug resistance has prompted investigations of the underlying molecular mechanisms, particularly for the azole compounds central to current therapy. The target site for the azoles is the ERG11 gene product, the cytochrome P450 lanosterol 14alpha-demethylase, which is part of the ergosterol biosynthetic pathway. The resulting ergosterol depletion renders fungal cells vulnerable to further membrane damage. Development of azole resistance in fungi may occur through increased levels of the cellular target, upregulation of genes controlling drug efflux, alterations in sterol synthesis and decreased affinity of azoles for the cellular target. Here, we review the adaptative changes in fungi, in particular Candida albicans, in response to inhibitors of ergosterol biosynthesis. The molecular mechanisms of azole resistance might help in devising more effective antifungal therapies.  相似文献   

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In a programme aimed at tagging rust-resistance genes in flax with the maize transposable element Ac , a primary transformant of a line called 'Forge' that is homozygous for four rust-resistance genes, L 6, M, N and P 2, was identified that possessed 10 copies of the Ac element, one of which was linked (29 map units) to L 6. Descendants of this plant, which had from 8 to 15 copies of Ac , were crossed to a rust-susceptible line and the progeny screened for rust-susceptible mutants. When the Ac linked to L 6 was present in the parent, a high frequency of L 6 mutants was observed (29 mutants in 30 575). By contrast, when this Ac was absent, no such mutants were observed in 9258 progeny. The background frequency of L 6 mutants was low (five in 124 088). A detailed analysis was made of the first 11 L 6 mutants recovered from parents carrying the L 6-linked Ac element. While none of the mutants possessed a tagged resistance gene, all lacked an RFLP marker closely linked to L 6, suggesting that deletions were responsible for loss of the L 6 specificity. In many of the mutants, one or more RFLP markers in the vicinity of the linked Ac were also absent. These findings suggest that the linked Ac may be inducing chromosome breakage.  相似文献   

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白念珠菌唑类药物耐药相关转录因子研究进展   总被引:1,自引:0,他引:1  
近年来白念珠菌的感染率呈逐年上升趋势,随着唑类药物的广泛应用,耐药菌株不断增多,已成为临床治疗的一大难题.白念珠菌的耐药机制主要与ERG 11基因的突变和过表达、药物外排泵相关基因表达增多及生物膜的形成等有关,由于转录因子是耐药基因表达的关键调节因子,关于锌簇转录因子与耐药关系的研究越来越多,如TAC 1、MRR 1、MRR 2、UPC 2、NDT 80等,其点突变可引起某些耐药基因的过表达而介导耐药,该领域研究已成为热点,该文就此研究进展做一概述.  相似文献   

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The evolution of drug resistance is an important process that affects clinical outcomes. Resistance to fluconazole, the most widely used antifungal, is often associated with acquired aneuploidy. Here we provide a longitudinal study of the prevalence and dynamics of gross chromosomal rearrangements, including aneuploidy, in the presence and absence of fluconazole during a well-controlled in vitro evolution experiment using Candida albicans, the most prevalent human fungal pathogen. While no aneuploidy was detected in any of the no-drug control populations, in all fluconazole-treated populations analyzed an isochromosome 5L [i(5L)] appeared soon after drug exposure. This isochromosome was associated with increased fitness in the presence of drug and, over time, became fixed in independent populations. In two separate cases, larger supernumerary chromosomes composed of i(5L) attached to an intact chromosome or chromosome fragment formed during exposure to the drug. Other aneuploidies, particularly trisomies of the smaller chromosomes (Chr3–7), appeared throughout the evolution experiment, and the accumulation of multiple aneuploid chromosomes per cell coincided with the highest resistance to fluconazole. Unlike the case in many other organisms, some isolates carrying i(5L) exhibited improved fitness in the presence, as well as in the absence, of fluconazole. The early appearance of aneuploidy is consistent with a model in which C. albicans becomes more permissive of chromosome rearrangements and segregation defects in the presence of fluconazole.  相似文献   

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The objective of the study was to evaluate the use of targeted multiplex Nanopore MinION amplicon re-sequencing of key Candida spp. from blood culture bottles to identify azole and echinocandin resistance associated SNPs. Targeted PCR amplification of azole (ERG11 and ERG3) and echinocandin (FKS) resistance-associated loci was performed on positive blood culture media. Sequencing was performed using MinION nanopore device with R9.4.1 Flow Cells. Twenty-eight spiked blood cultures (ATCC strains and clinical isolates) and 12 prospectively collected positive blood cultures with candidaemia were included. Isolate species included Candida albicans, Candida glabrata, Candida krusei, Candida parapsilosis, Candida tropicalis and Candida auris. SNPs that were identified on ERG and FKS genes using Snippy tool and CLC Genomic Workbench were correlated with phenotypic testing by broth microdilution (YeastOne™ Sensititre). Illumina whole-genome-sequencing and Sanger-sequencing were also performed as confirmatory testing of the mutations identified from nanopore sequencing data. There was a perfect agreement of the resistance-associated mutations detected by MinION-nanopore-sequencing compared to phenotypic testing for acquired resistance (16 with azole resistance; 3 with echinocandin resistance), and perfect concordance of the nanopore sequence mutations to Illumina and Sanger data. Mutations with no known association with phenotypic drug resistance and novel mutations were also detected.  相似文献   

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Abstract Races 1 and 400 of Melampsosau bni the causal agent of flax [Lmum usitatissimum]), were crossed and the resulting F2 progeny evaluated on near-isogcnic fiax lines. The infection type of the parental cultures, the F12 and the segregating f2 progeny were used to evaluate the inheritance of pathogenicity. Races 1 and 400 as well as the F2 and all the F2 progeny were avirulent on lines N and P4 genes. This indicated both races to be homozygous avirulent. The F2 and all the F2 progeny were virulent on lines containing L9, M1, M4, and P. This indicated the F to be homuzygous for virulence at these loci. Segregation ratios of the F2 cultures fit monogenic ratios on lines with host genes K. L2, L5, L6, L7, L11, M, M2, M3, N1, P1, P2, and P3. Race 1 was avirulent, race 400 virulent and tht F, avirulent on these lines. Several linkage groups were indicated including close linkage at Ap1, Ap2 and Ap3. Segregation on lines L, L3, M5, M6 and cultivars Flor, Dufferin, Linott, and Wishek fit a digenic model. The infection tvpes of the parents, the F1 and the F2, segregations could usually be explained by classical gene-for-gene interactions. Possible exceptions were segregations on L4, L8 and N2 which did not fit a 3: 1 ratio but did fit a 9: 7 ratio. Segregation on L 10 fit a 7: 9 ratio but line L10 may be temperature sensitive. Segregation on L1 indicated a single dominant gene for pathogenicity.  相似文献   

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以牛源近平滑念珠菌(Candida parapsilosis)为试验菌株,采用微量稀释法进行药物敏感性试验,PCR扩增测序检测ERG11基因突变,Realtime PCR检测ERG11、CDR1、MDR1、MRR1基因的mRNA表达量,探讨耐药相关基因在牛源近平滑念珠菌耐唑类药物中的作用,为牛源近平滑念珠菌的耐药研究提供参考。结果表明,近平滑念珠菌对5-氟胞嘧啶、两性霉素B的敏感率均高于75%,对唑类药物的耐药率均高于50%,其中对氟康唑的耐药率最高,达58.3%;所有菌株的ERG11基因中均检测出错义突变A395T,耐氟康唑和剂量依赖菌株的ERG11基因中检测出同义突变T591C;氟康唑耐药组ERG11、CDR1、 MDR1、MRR1基因表达水平均显著高于敏感组(P<0.05)。牛源近平滑念珠菌对唑类抗真菌药物的耐药率较高且具有多重耐药性。牛源近平滑念珠菌ERG11基因中的T591C突变以及ERG11、CDR1、MDR1、MRR1基因的高表达都可能在其对氟康唑耐药性的产生中起到一定的作用。  相似文献   

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